Latest Articles for Meteorology

Exploring how rotation shapes clouds and climate on Earth and beyond.

A study analyzing meteor activity using three camera systems.

A detailed look into how vortices behave in fluid dynamics.

Examining how noise influences fluid behavior through Lévy areas and Wong-Zakai anomalies.

A new method improves predictions for local weather events influenced by atmospheric patterns.

Study of fluid dynamics over obstacles enhances knowledge in various fields.

A groundbreaking method provides deeper insights into tidally locked exoplanets' climates.

Study highlights lightning risks for wind turbines and machine learning's role in predictions.

Recent models improve our understanding of fluid turbulence in natural and industrial systems.

Study of how ocean waves change when encountering sea ice.

Examining the properties and applications of stationary Gaussian fields in various disciplines.

Study of how heavy particles behave in Kirchhoff and Kida vortices.

Examining light interactions with the atmosphere for better telescope images.

Exploring new methods for modeling and understanding viscous fluid behavior near boundaries.

Explore how active scalar equations shape our understanding of fluid behavior.

A refined model enhances understanding of tropical cyclone formation and its climate impacts.

New model combines wavelet transforms and machine learning for better turbulent flow predictions.

CaFA brings efficiency and accuracy to global weather predictions with machine learning.

Using CNNs to improve predictions of significant weather patterns.

Enhanced methods for estimating cyclone wind speeds using satellite data.

Study of how turbulent flows interact with landscapes, influencing energy transfer in water bodies.

Examining wave dynamics influenced by Earth's rotation and curvature.

This article presents a method to improve meteor shower identification accuracy.

New methods enhance accuracy in weather forecasting and climate modeling.

This article examines how fluids mix and behave over time in various environments.

An overview of how sheared convective turbulence affects fluid dynamics and weather patterns.

Examining how turbophoresis impacts particle behavior in turbulent environments.

Examining how ocean circulation influences climate and the potential impacts of climate change.

Research uncovers key patterns in small-scale turbulence using new measurement techniques.

A new method for studying energy movements in fluid systems.

Analyzing the effects of weathering crust on glacier behavior and sea level changes.

Research reveals new techniques for identifying meteor origins and improving classification.

An overview of Lagrangian averaging and its role in fluid analysis.

Combining machine learning and traditional models to enhance weather prediction accuracy.

A new approach improves accuracy in weather predictions by simulating multiple scales.

Researchers propose a new method for more accurate meteor observations.

Explore the complexities of the moist atmosphere and its effects on weather.

A look into the formation and significance of small clouds in our climate.

A new model aims to improve medium-range weather predictions.

Stagewise boosting distributional regression improves analysis of complex data.